Interplay Between Metabolic Sensors and Immune Cell Signaling.

Q2 Medicine Experientia supplementum (2012) Pub Date : 2018-01-01 DOI:10.1007/978-3-319-74932-7_3

Prashant Chauhan, Arup Sarkar, Bhaskar Saha

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引用次数: 4

Abstract

The immune system, like all other systems, responds to perturbations of the baseline, homeostatic functioning of immune cells. These perturbations come in the form of infection, tumors, autoantigens, and can occur after mismatched transplantation. During response, immune cells alter their metabolic activities. However, the subsets of the same cell type differ to distinctively associate specific immune function to a particular metabolic profile. The response is mounted as a joint function of metabolic receptor and immune receptor signaling that target various metabolic pathways: glycolysis the pentose phosphate pathway; oxidative phosphorylation; beta-oxidation of fatty acids and transamination. The products from these cycles are integrated in the tricarboxylic acid cycle. However, many more pathways lead to many secondary metabolites that are not directly related to energy derivation or maintaining structure of the cells. These secondary metabolites can again work in an autocrine manner to re-tune the immune cells to optimize their restorative effector functions.

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代谢传感器和免疫细胞信号之间的相互作用。

免疫系统，像所有其他系统一样，对基线的扰动做出反应，免疫细胞的稳态功能。这些干扰以感染、肿瘤、自身抗原的形式出现，并可能在错配移植后发生。在反应过程中，免疫细胞改变了它们的代谢活动。然而，相同细胞类型的亚群不同，将特定的免疫功能与特定的代谢特征显著地联系起来。这种反应被认为是代谢受体和免疫受体信号的联合作用，它们针对各种代谢途径:糖酵解戊糖磷酸途径;氧化磷酸化;脂肪酸氧化和转氨化。这些循环的产物被整合到三羧酸循环中。然而，更多的途径导致许多与能量来源或维持细胞结构没有直接关系的次级代谢物。这些次生代谢物可以再次以自分泌的方式重新调整免疫细胞，以优化其恢复效应功能。

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